Computer Vision

Researchers

Awards

AWARD Best Paper - Honorable Mention Award at WACV 2021
Date: January 6, 2021
Awarded to: Rushil Anirudh, Suhas Lohit, Pavan Turaga
MERL Contact: Suhas Lohit
Research Areas: Computational Sensing, Computer Vision, Machine Learning
Brief
- A team of researchers from Mitsubishi Electric Research Laboratories (MERL), Lawrence Livermore National Laboratory (LLNL) and Arizona State University (ASU) received the Best Paper Honorable Mention Award at WACV 2021 for their paper "Generative Patch Priors for Practical Compressive Image Recovery".
  
  The paper proposes a novel model of natural images as a composition of small patches which are obtained from a deep generative network. This is unlike prior approaches where the networks attempt to model image-level distributions and are unable to generalize outside training distributions. The key idea in this paper is that learning patch-level statistics is far easier. As the authors demonstrate, this model can then be used to efficiently solve challenging inverse problems in imaging such as compressive image recovery and inpainting even from very few measurements for diverse natural scenes.
AWARD MERL Researchers win Best Paper Award at ICCV 2019 Workshop on Statistical Deep Learning in Computer Vision
Date: October 27, 2019
Awarded to: Abhinav Kumar, Tim K. Marks, Wenxuan Mou, Chen Feng, Xiaoming Liu
MERL Contact: Tim K. Marks
Research Areas: Artificial Intelligence, Computer Vision, Machine Learning
Brief
- MERL researcher Tim Marks, former MERL interns Abhinav Kumar and Wenxuan Mou, and MERL consultants Professor Chen Feng (NYU) and Professor Xiaoming Liu (MSU) received the Best Oral Paper Award at the IEEE/CVF International Conference on Computer Vision (ICCV) 2019 Workshop on Statistical Deep Learning in Computer Vision (SDL-CV) held in Seoul, Korea. Their paper, entitled "UGLLI Face Alignment: Estimating Uncertainty with Gaussian Log-Likelihood Loss," describes a method which, given an image of a face, estimates not only the locations of facial landmarks but also the uncertainty of each landmark location estimate.
AWARD R&D100 award for Deep Learning-based Water Detector
Date: November 16, 2018
Awarded to: Ziming Zhang, Alan Sullivan, Hideaki Maehara, Kenji Taira, Kazuo Sugimoto
MERL Contact: Alan Sullivan
Research Areas: Artificial Intelligence, Computer Vision, Machine Learning
Brief
- Researchers and developers from MERL, Mitsubishi Electric and Mitsubishi Electric Engineering (MEE) have been recognized with an R&D100 award for the development of a deep learning-based water detector. Automatic detection of water levels in rivers and streams is critical for early warning of flash flooding. Existing systems require a height gauge be placed in the river or stream, something that is costly and sometimes impossible. The new deep learning-based water detector uses only images from a video camera along with 3D measurements of the river valley to determine water levels and warn of potential flooding. The system is robust to lighting and weather conditions working well during the night as well as during fog or rain. Deep learning is a relatively new technique that uses neural networks and AI that are trained from real data to perform human-level recognition tasks. This work is powered by Mitsubishi Electric's Maisart AI technology.

See All Awards for Computer Vision

News & Events

NEWS MERL presenting 8 papers at ICASSP 2022
Date: May 22, 2022 - May 27, 2022
Where: Singapore
MERL Contacts: Anoop Cherian; Chiori Hori; Toshiaki Koike-Akino; Jonathan Le Roux; Tim K. Marks; Philip V. Orlik; Kuan-Chuan Peng; Pu (Perry) Wang; Gordon Wichern
Research Areas: Artificial Intelligence, Computer Vision, Signal Processing, Speech & Audio
Brief
- MERL researchers are presenting 8 papers at the IEEE International Conference on Acoustics, Speech & Signal Processing (ICASSP), which is being held in Singapore from May 22-27, 2022. A week of virtual presentations also took place earlier this month.
  
  Topics to be presented include recent advances in speech recognition, audio processing, scene understanding, computational sensing, and classification.
  
  ICASSP is the flagship conference of the IEEE Signal Processing Society, and the world's largest and most comprehensive technical conference focused on the research advances and latest technological development in signal and information processing. The event attracts more than 2000 participants each year.
NEWS MERL Scientists Presenting 5 Papers at IEEE International Conference on Communications (ICC) 2022
Date: May 16, 2022 - May 20, 2022
Where: Seoul, Korea
MERL Contacts: Jianlin Guo; Kyeong Jin (K.J.) Kim; Toshiaki Koike-Akino; Philip V. Orlik; Kieran Parsons; Pu (Perry) Wang; Ye Wang
Research Areas: Artificial Intelligence, Communications, Computational Sensing, Computer Vision, Machine Learning, Signal Processing
Brief
- MERL Connectivity & Information Processing Team scientists remotely presented 5 papers at the IEEE International Conference on Communications (ICC) 2022, held in Seoul Korea on May 16-20, 2022. Topics presented include recent advancements in communications technologies, deep learning methods, and quantum machine learning (QML). Presentation videos are also found on our YouTube channel. In addition, K. J. Kim organized "Industrial Private 5G-and-beyond Wireless Networks Workshop" at the conference.
  
  IEEE ICC is one of two IEEE Communications Society’s flagship conferences (ICC and Globecom). Each year, close to 2,000 attendees from over 70 countries attend IEEE ICC to take advantage of a program which consists of exciting keynote session, robust technical paper sessions, innovative tutorials and workshops, and engaging industry sessions. This 5-day event is known for bringing together audiences from both industry and academia to learn about the latest research and innovations in communications and networking technology, share ideas and best practices, and collaborate on future projects.

See All News & Events for Computer Vision

Research Highlights

Internships

CV1738: Robot autonomous grasping using tactile sensing

The Computer Vision group is offering an internship opportunity in robot autonomous grasping using tactile sensing. The internship is open to highly skilled graduate students on a PhD track. Candidates should have a solid understanding of reinforcement learning, contact mechanics, simulating contacts, grasping, pose estimation and point cloud processing. The policies will be deployed on physical robots and the sensing is provided by various types of tactile sensing arrays. Strong programming skills are required, including MuJoCo, ROS, C++ and Python. Duration and start dates are flexible.
CV1703: Software development in ROS for robotic manipulation

MERL is offering an internship position for non-research software development for robotic manipulation. The scope of the internship is to develop robust ROS packages by refactoring existing experimental code. The position is open to prospective candidates with very strong programming skills in ROS (Robot Operating System) using C++ primarily and Python respectively. The selected intern will have a software engineering role rather than research oriented. The position is open to both senior undergraduate students and master students. Flexible start and end dates.

See All Internships for Computer Vision

Recent Publications

Shah, A.P., Geng, S., Gao, P., Cherian, A., Hori, T., Marks, T.K., Le Roux, J., Hori, C., "Audio-Visual Scene-Aware Dialog and Reasoning Using Audio-Visual Transformers with Joint Student-Teacher Learning", IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP), April 2022.
BibTeX TR2022-019 PDF
- @inproceedings{Shah2022apr,
- author = {Shah, Ankit Parag and Geng, Shijie and Gao, Peng and Cherian, Anoop and Hori, Takaaki and Marks, Tim K. and Le Roux, Jonathan and Hori, Chiori},
- title = {Audio-Visual Scene-Aware Dialog and Reasoning Using Audio-Visual Transformers with Joint Student-Teacher Learning},
- booktitle = {IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP)},
- year = 2022,
- month = apr,
- url = {https://www.merl.com/publications/TR2022-019}
- }
Zhu, X., Jain, S., Tomizuka, M., van Baar, J., "Learning to Synthesize Volumetric Meshes from Vision-based Tactile Imprints", IEEE International Conference on Robotics and Automation (ICRA) 2022, March 2022.
BibTeX TR2022-035 PDF
- @article{Zhu2022mar,
- author = {Zhu, Xinghao and Jain, Siddarth and Tomizuka, Masayoshi and van Baar, Jeroen},
- title = {Learning to Synthesize Volumetric Meshes from Vision-based Tactile Imprints},
- journal = {IEEE International Conference on Robotics and Automation (ICRA) 2022},
- year = 2022,
- month = mar,
- url = {https://www.merl.com/publications/TR2022-035}
- }
Hori, C., Shah, A.P., Geng, S., Gao, P., Cherian, A., Hori, T., Le Roux, J., Marks, T.K., "Overview of Audio Visual Scene-Aware Dialog with Reasoning Track for Natural Language Generation in DSTC10", The 10th Dialog System Technology Challenge Workshop at AAAI, February 2022.
BibTeX TR2022-016 PDF
- @inproceedings{Hori2022feb,
- author = {Hori, Chiori and Shah, Ankit Parag and Geng, Shijie and Gao, Peng and Cherian, Anoop and Hori, Takaaki and Le Roux, Jonathan and Marks, Tim K.},
- title = {Overview of Audio Visual Scene-Aware Dialog with Reasoning Track for Natural Language Generation in DSTC10},
- booktitle = {The 10th Dialog System Technology Challenge Workshop at AAAI},
- year = 2022,
- month = feb,
- url = {https://www.merl.com/publications/TR2022-016}
- }
Shah, A.P., Hori, T., Le Roux, J., Hori, C., DSTC10-AVSD Submission System with Reasoning using Audio-Visual Transformers with Joint Student-Teacher Learning, February 2022.
BibTeX TR2022-025 PDF
- @book{Shah2022feb,
- author = {Shah, Ankit Parag and Hori, Takaaki and Le Roux, Jonathan and Hori, Chiori},
- title = {DSTC10-AVSD Submission System with Reasoning using Audio-Visual Transformers with Joint Student-Teacher Learning},
- year = 2022,
- month = feb,
- url = {https://www.merl.com/publications/TR2022-025}
- }
Cherian, A., Hori, C., Marks, T.K., Le Roux, J., "(2.5+1)D Spatio-Temporal Scene Graphs for Video Question Answering", AAAI Conference on Artificial Intelligence, February 2022.
BibTeX TR2022-014 PDF Video Presentation
- @inproceedings{Cherian2022feb,
- author = {Cherian, Anoop and Hori, Chiori and Marks, Tim K. and Le Roux, Jonathan},
- title = {(2.5+1)D Spatio-Temporal Scene Graphs for Video Question Answering},
- booktitle = {AAAI Conference on Artificial Intelligence},
- year = 2022,
- month = feb,
- url = {https://www.merl.com/publications/TR2022-014}
- }
Ke, L., Peng, K.-C., Lyu, S., "Towards To-a-T Spatio-Temporal Focus for Skeleton-Based Action Recognition", AAAI Conference on Artificial Intelligence, February 2022.
BibTeX TR2022-015 PDF Presentation
- @inproceedings{Ke2022feb,
- author = {Ke, Lipeng and Peng, Kuan-Chuan and Lyu, Siwei},
- title = {Towards To-a-T Spatio-Temporal Focus for Skeleton-Based Action Recognition},
- booktitle = {AAAI Conference on Artificial Intelligence},
- year = 2022,
- month = feb,
- url = {https://www.merl.com/publications/TR2022-015}
- }
Shah, A., Sra, S., Chellappa, R., Cherian, A., "Max-Margin Contrastive Learning", AAAI Conference on Artificial Intelligence, February 2022.
BibTeX TR2022-013 PDF
- @inproceedings{Shah2022feb,
- author = {Shah, Anshul and Sra, Suvrit and Chellappa, Rama and Cherian, Anoop},
- title = {Max-Margin Contrastive Learning},
- booktitle = {AAAI Conference on Artificial Intelligence},
- year = 2022,
- month = feb,
- url = {https://www.merl.com/publications/TR2022-013}
- }
Medin, S.C., Egger, B., Cherian, A., Wang, Y., Tenenbaum, J.B., Liu, X., Marks, T.K., "MOST-GAN: 3D Morphable StyleGAN for Disentangled Face Image Manipulation", AAAI Conference on Artificial Intelligence, February 2022.
BibTeX TR2022-011 PDF Video
- @inproceedings{Medin2022feb,
- author = {Medin, Safa C. and Egger, Bernhard and Cherian, Anoop and Wang, Ye and Tenenbaum, Joshua B. and Liu, Xiaoming and Marks, Tim K.},
- title = {MOST-GAN: 3D Morphable StyleGAN for Disentangled Face Image Manipulation},
- booktitle = {AAAI Conference on Artificial Intelligence},
- year = 2022,
- month = feb,
- url = {https://www.merl.com/publications/TR2022-011}
- }

See All Publications for Computer Vision

Quick Links

Tim K.Marks

AnoopCherian

Michael J.Jones

ChioriHori

AlanSullivan

Matthew E.Brand

HassanMansour

JonathanLe Roux

Ronald N.Perry

JayThornton

AnthonyVetro

RaduCorcodel

Devesh K.Jha

SuhasLohit

Petros T.Boufounos

DehongLiu

Daniel N.Nikovski

DiegoRomeres

YeWang

SiddarthJain

ArvindRaghunathan

GordonWichern

William S.Yerazunis

ToshiakiKoike-Akino

Philip V.Orlik

Kuan-ChuanPeng

HuifangSun

YebinWang

PedroMiraldo

Robust Machine Learning

Video Anomaly Detection

MERL Shopping Dataset

Point-Plane SLAM

CV1738: Robot autonomous grasping using tactile sensing

CV1703: Software development in ROS for robotic manipulation

[MERL Seminar Series Spring 2022] Self-Supervised Scene Representation Learning

[MERL Seminar Series Spring 2022] Learning Speech Representations with Multimodal Self-Supervision

HealthCam: A system for non-contact monitoring of vital signs

[MERL Seminar Series 2021] Learning to See by Moving: Self-supervising 3D scene representations for perception, control, and visual reasoning

[MERL Seminar Series 2021] Look and Listen: From Semantic to Spatial Audio-Visual Perception

Towards Human-Level Learning of Complex Physical Puzzles

Scene-Aware Interaction Technology

3D Object Discovery and Modeling Using Single RGB-D Images Containing Multiple Object Instances

Joint 3D Reconstruction of a Static Scene and Moving Objects

Direct Multichannel Tracking

FoldingNet: Interpretable Unsupervised Learning on 3D Point Clouds

FasTFit: A fast T-spline fitting algorithm

CASENet: Deep Category-Aware Semantic Edge Detection

Object Detection and Tracking in RGB-D SLAM via Hierarchical Feature Grouping

Pinpoint SLAM: A Hybrid of 2D and 3D Simultaneous Localization and Mapping for RGB-D Sensors

Action Detection Using A Deep Recurrent Neural Network

Dose optimization for particle beam therapy

3D Reconstruction

MERL Research on Autonomous Vehicles

Saffron - Digital Type System

Obstacle Detection

Semantic Scene Labeling

Robot Bin Picking

Sapphire - High Accuracy NC Milling Simulation

Deep Hierarchical Parsing for Semantic Segmentation

Global Local Face Upsampling Network

Gaussian Conditional Random Field Network for Semantic Segmentation

Fast Graspability Evaluation on Single Depth Maps for Bin Picking with General Grippers

Point-Plane SLAM for Hand-Held 3D Sensors

Tracking an RGB-D Camera Using Points and Planes

Fast Plane Extraction in Organized Point Clouds Using Agglomerative Hierarchical Clustering

Calibration of Non-Overlapping Cameras Using an External SLAM System

Voting-Based Pose Estimation for Robotic Assembly Using a 3D Sensor

Fast Object Localization and Pose Estimation in Heavy Clutter for Robotic Bin Picking

Learning to rank 3D features

Instance Segmentation GAN

Audio Visual Scene-Graph Segmentor

Generating Visual Dynamics from Sound and Context

Adversarially-Contrastive Optimal Transport

MotionNet

Contact-Implicit Trajectory Optimization

FoldingNet++

Landmarks’ Location, Uncertainty, and Visibility Likelihood

Gradient-based Nikaido-Isoda

Tim K.
Marks

Anoop
Cherian

Michael J.
Jones

Chiori
Hori

Alan
Sullivan

Matthew E.
Brand

Hassan
Mansour

Jonathan
Le Roux

Ronald N.
Perry

Jay
Thornton

Anthony
Vetro

Radu
Corcodel

Devesh K.
Jha

Suhas
Lohit

Petros T.
Boufounos

Dehong
Liu

Daniel N.
Nikovski

Diego
Romeres

Ye
Wang

Siddarth
Jain

Arvind
Raghunathan

Gordon
Wichern

William S.
Yerazunis

Toshiaki
Koike-Akino

Philip V.
Orlik

Kuan-Chuan
Peng

Huifang
Sun

Yebin
Wang

Pedro
Miraldo